Information Processing Device

ABSTRACT

An information processing device comprising a control unit which, when a predetermined automatic label generation condition is satisfied by data being input, generates or selects electronic label information having a preset content correlated with an application identification information of an application in operation at time of the input of the data and the automatic label generation condition. The control unit is configured so that, when the control unit generates or selects the electronic label information, the control unit correlates and stores the generated or selected electronic label information with the input data as associated information and the application identification information in a predetermined memory.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.14/858,433 filed Sep. 18, 2015 which claims priority of Japanese PatentApplication No. 2014-249505 filed Dec. 10, 2014, the contents of both ofwhich are hereby incorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an information processing device.

2. Description of the Related Art

There has been known a technique to attach an electronic label to a slipor the like. For example, there is described in Japanese PatentApplication Publication No. H09-102000 a technique to attach anelectronic label to an electronic slip by inputting the content of theelectronic label from an interactive electronic label attachment screen.

However, an electronic label management system is, in general, limitedto the following use; an operator inputs what he/she notices whileinputting a slip or the like. Therefore, unless an operator notices, nolabel is generated even when an event to be conveyed with an electroniclabel occurs. For example, even when the stock of a product of areceived order has run low and order placement thereof is needed, unlessan operator notices that while inputting the received order, noelectronic label such as “Stock has run low. Check order placement.” isgenerated.

SUMMARY OF THE INVENTION

Objects of the present invention include generating or selecting anelectronic label even when an operator does not notice that an event tobe conveyed with an electronic label occurs.

Another aspect of the present invention is directed to an informationprocessing device comprising a control unit which, when a predeterminedautomatic label generation condition is satisfied by data being input,generates or selects electronic label information having a presetcontent correlated with an application identification information of anapplication in operation at time of the input of the data and theautomatic label generation condition, wherein when the control unitgenerates or selects the electronic label information, the control unitis configured to correlate and store the generated or selectedelectronic label information with the input data as associatedinformation and the application identification information in apredetermined memory.

Another aspect of the present invention is directed to An informationprocessing device comprising a determination unit which determineswhether a predetermined automatic label generation condition issatisfied each time date is input; a generation/selection unit which,when the determination unit determines that the automatic labelgeneration condition is satisfied, generates or selects electronic labelinformation having a preset content correlated with an applicationidentification information of an application having been started toinput the data and the automatic label generation condition; and astorage control unit which, when the generation/selection unit generatesor selects the electronic label information, correlates and stores thegenerated or selected electronic label information with the input dataas associated information and the application identification informationin a predetermined memory.

Also disclosed is a data input device, including: a determination unitwhich determines whether a predetermined automatic label generationcondition is satisfied on the basis of (i) input data and (ii)predetermined data that has a type relevant to the input data and isstored in an automatic label generation condition storage unit; ageneration/selection unit which generates or selects electronic labelinformation having a predetermined content fit for the automatic labelgeneration condition when the determination unit determines that theautomatic label generation condition is satisfied; and a storage controlunit which correlates and stores the generated or selected electroniclabel information with input-data identification information of theinput data in a label information storage unit.

Also disclosed is a data input method, including: determining whether apredetermined automatic label generation condition is satisfied on thebasis of (i) input data and (ii) predetermined data that has a typerelevant to the input data and is stored in an automatic labelgeneration condition storage unit; generating or selecting electroniclabel information having a predetermined content fit for the automaticlabel generation condition when determining that the automatic labelgeneration condition is satisfied; and correlating and storing thegenerated or selected electronic label information with input-dataidentification information of the input data in a label informationstorage unit.

Also disclosed is a non-transitory computer readable storage mediumhaving a program stored therein to make a computer of a data inputdevice: determine whether a predetermined automatic label generationcondition is satisfied on the basis of (i) input data and (ii)predetermined data that has a type relevant to the input data and isstored in an automatic label generation condition storage unit; generateor select electronic label information having a predetermined contentfit for the automatic label generation condition when determining thatthe automatic label generation condition is satisfied; and correlate andstore the generated or selected electronic label information withinput-data identification information of the input data in a labelinformation storage unit.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is fully understood from the detailed descriptiongiven hereinafter and the accompanying drawings, which are given by wayof illustration only and thus are not intended to limit the presentinvention, wherein:

FIG. 1 is a block diagram showing the functional configuration of a datainput device;

FIG. 2 shows a relationship of a business system, a label managementsystem, a business system DB, an automatic label generation pattern DB,an associated application DB and a label information DB;

FIG. 3A to FIG. 3G show examples of tables constituting the businesssystem DB;

FIG. 4 shows an example of data stored in the automatic label generationpattern DB;

FIG. 5 shows an example of data stored in the associated application DB;

FIG. 6A and FIG. 6B show an example of data stored in the labelinformation DB;

FIG. 7 shows an example of a display unit in a state in which thebusiness system and the label management system are in operation;

FIG. 8 shows an example of a label detail check screen displayed when alabel button is specified;

FIG. 9 is a flowchart of an automatic label generation monitoringprocess performed by a CPU shown in FIG. 1;

FIG. 10 is a flowchart of a display control process performed by the CPUshown in FIG. 1;

FIG. 11 shows an example of the label detail check screen displayed bythe label management system when a label button displayed at Step S27 inFIG. 10 is specified;

FIG. 12A and FIG. 12B show examples of the label detail check screen onwhich a main label and an associated label are displayed to beswitchable according to user operation.

DETAILED DESCRIPTION OF THE DRAWINGS

Hereinafter, a preferred embodiment of the present invention is detailedwith reference to the drawings. The present invention is not limited tothe illustrated examples.

(Configuration of Data Input Device 1)

FIG. 1 is a block diagram showing the functional configuration of a datainput device 1 according to an embodiment of the present invention.

As shown in FIG. 1, the data input device 1 includes a CPU (CentralProcessing Unit) 10, an operation unit 11, a display unit 12, a RAM(Random Access Memory) 13, a storage unit 14, a communication unit 15and a clock unit 16, and these units are connected to one another via abus 17.

The CPU 10 reads a system program (OS: Operating System) stored in thestorage unit 14, opens the system program in a work area of the RAM 13and controls the units in accordance with the system program. The CPU 10also functions as a business system 101 by working together with abusiness system program 141 stored in the storage unit 14. The CPU 10also functions as a label management system 102 by working together witha label management system program 142 stored in the storage unit 14.

The operation unit 11 includes a keyboard provided with cursor keys,number input keys, various function keys and the like and a pointingdevice such as a mouse, and outputs to the CPU 10 command signals whichare input by the keys of the keyboard or the mouse being operated. Theoperation unit 11 may be provided with a touch panel on a display screenof the display unit 12. In this case, the operation unit 11 outputs tothe CPU 10 command signals input through the touch panel.

The display unit 12 is constituted of an LCD (Liquid Crystal Display),an organic EL (Electro Luminescence) display or the like. The displayunit 12 displays thereon various screens in response to display signalsinput from the CPU 10.

The RAM 13 has the work area where programs, input data, output data,parameters and the like read from the storage unit 14 by the CPU 10 aretemporarily stored.

The storage unit 14 is constituted of a nonvolatile semiconductor memoryor the like. The storage unit 14 stores therein: the system program, thebusiness system program 141 and the label management system program 142executed by the CPU 10; the data necessary for execution of theseprograms; and the like. These programs are stored in the storage unit 14in the form of computer readable program codes. The CPU 10 actsaccording to the program codes.

The storage unit 14 also stores therein a business system DB (DataBase)141 a, an automatic label generation pattern DB 141 b, an associatedapplication DB 142 a and a label information DB 142 b.

FIG. 2 shows a relationship of the business system 101, the labelmanagement system 102, the business system DB 141 a, the automatic labelgeneration pattern DB 141 b, the associated application DB 142 a and thelabel information DB 142 b.

As shown in FIG. 2, the business system 101 refers to the businesssystem DB 141 a and the automatic label generation pattern DB 141 b,whereas the label management system 102 refers to the associatedapplication DB 142 a and the label information DB 142 b.

The business system 101 inputs transaction data by slip input so as toaccumulate the transaction data in the business system DB 141 a andperforms sales management and the like on the basis of the informationin the database. The business system program 141 includes a plurality ofapplication programs (hereinafter referred to as “businessapplications”).

Examples of the business applications include: a received-orderapplication to accept input of received-order slips and update areceived-order detail table 1411 (see FIG. 3A) of the business system DB141 a on the basis of the input slip information; and a placed-orderapplication to accept input of placed-order slips and update aplaced-order detail table 1412 (see FIG. 3B) of the business system DB141 a on the basis of the input slip information. Each businessapplication is provided with an identifier called an application ID. Byspecifying an application ID, a specific business application isstarted.

The business system DB 141 a is a database where basic informationnecessary for business is stored and also where information inputthrough the business applications of the business system program 141,information calculated on the basis of the input information and thelike are accumulated.

The business system DB 141 a contains the received-order detail table1411 shown in FIG. 3A, the placed-order detail table 1412 shown in FIG.3B, a product master table 1413 shown in FIG. 3C, a stock managementtable 1414 shown in FIG. 3D, a customer master table 1415 shown in FIG.3E, an accrued amount by customer table 1416 shown in FIG. 3F and asupplier master table 1417 shown in FIG. 3G.

The business system DB 141 a functions as an automatic label generationcondition storage unit and an input data storage unit.

The received-order detail table 1411 is a table where slip informationof received-order slips input through the received-order application isstored. The placed-order detail table 1412 is a table where slipinformation of placed-order slips input through the placed-orderapplication is stored.

The business system DB 141 a also contains other tables where slipinformation input through the business applications is stored, such as asales detail table, a warehousing management table and a shippingmanagement table. The slip information in the tables is managed by usingslip numbers which are identification information (IDs) to identifyslips.

The product master table 1413 is a table where basic information onproducts is stored. The customer master table 1415 is a table wherebasic information on customers is stored. The supplier master table 1417is a table where basic information on suppliers is stored. The stockmanagement table 1414 is a table to which the number of stocks is addedwhen products are warehoused and from which the number of stocks issubtracted when products are shipped. The accrued amount by customertable 1416 is a table where data for calculation of accrued amounts ofrespective customers are stored.

The automatic label generation pattern DB 141 b is a database whereautomatic label generation conditions to automatically generate labels(digital labels) are correlated and stored with contents of digitallabel information (labels) (hereinafter referred to as “labelinformation”) automatically generated when the automatic labelgeneration conditions are satisfied. That is, the automatic labelgeneration pattern DB 141 b functions as an automatic label generationpattern storage unit.

FIG. 4 shows an example of data stored in the automatic label generationpattern DB 141 b.

As shown in FIG. 4, the automatic label generation pattern DB 141 b hasfields of “Target Application ID”, “Label ID”, “Automatic LabelGeneration Condition”, “Label Title” and “Label Content”.

The “Target Application ID” is a field of application IDs of businessapplications (target applications) as a target in which labelinformation is automatically generated. In the embodiment, the businessapplications as the automatic label generation target are businessapplications to input slips, such as the received-order application andthe placed-order application, but not limited thereto.

The “Label ID” is a field of label identification information (IDs) toidentify the types of label information automatically generated.

The “Automatic Label Generation Condition” is a field of conditions toautomatically generate label information, namely, the automatic labelgeneration conditions.

In the embodiment, each automatic label generation condition isexpressed by a relational expression of (i) data (input data) inputthrough a business application and (ii) predetermined data having atype(s) relevant to the input data and/or data calculated on the basisof a group of predetermined data having types relevant to the inputdata.

The predetermined data having a type relevant to the input data is, tobe specific, data of a predetermined item of a predetermined table inthe business system DB 141 a, the item being relevant to the input data(data of an item different from the item(s) of the input data).

Data having the same type as the input data, for example, a value todetermine whether the input data is correct or not, such as a correctvalue of the input data, an incorrect value thereof or a threshold valuetherefor, is not the predetermined data having a type relevant to theinput data.

The “Label Title” is a field of titles of label information generatedwhen the automatic label generation conditions are satisfied.

The “Label Content” is a field of detailed contents of label informationgenerated when the automatic label generation conditions are satisfied.

Each character string in “{ }” in each field in the automatic labelgeneration pattern DB 141 b represents a name of a variable in abusiness application, and when a target application is executed, thename is actually input or replaced by a value obtained or calculatedfrom the business system DB 141 a. For each business application, aplurality of records can be registered.

The label management system 102 accepts input of label information madeby user operation and stores the input label information in the labelinformation DB 142 b, and also stores in the label information DB 142 bthe label information sent from the business system 101 when eachautomatic label generation condition is satisfied.

The label management system 102 performs display control of labels basedon the label information stored in the label information DB 142 b byexecuting the below-described display control process or the like.

The associated application DB 142 a is a database where association(correlations) of (i) label information automatically generated with(ii) business applications associated with the contents of the labelinformation is stored.

That is, the associated application DB 142 a functions as an associatedapplication storage unit. The business applications associated with thecontents of the label information are each as follows; if a user looksat (reads) the label based on the label information while theapplication is in operation, it is useful.

FIG. 5 shows an example of data stored in the associated application DB142 a.

As shown in FIG. 5, the associated application DB 142 a has fields of“Label ID” and “Associated Application ID”.

The “Label ID” is a field of label identification information (IDs) toidentify the types of label information automatically generated.

The “Associated Application ID” is a field of application IDs ofbusiness applications associated with label information identified withlabel IDs.

The label information DB 142 b is a database where the generated labelinformation, including the automatically-generated label information, isstored.

FIG. 6A and FIG. 6B show an example of data stored in the labelinformation DB 142 b. The label information DB 142 b functions as alabel information storage unit.

As shown in FIG. 6A and FIG. 6B, the label information DB 142 b hasfields of “Label No.”, “User ID”, “Label Title”, “Label Content”,“In-operation Application ID”, “In-input Slip No.”, “Label ID”, “LabelInput Date/Time” and “Associated Label No.”.

The “Label No.” is a field of sequential numbers given to labelinformation.

The “User ID” is a field of user IDs of users who input labelinformation or users who log in when label information is automaticallygenerated.

The “Label Title” is a field of titles of label information.

The “Label Content” is a field of detailed contents of labelinformation.

The “In-operation Application ID” is a field of application IDs ofbusiness applications having been started, thereby operating (inoperation), when label information is automatically generated. Thisfield of each record about not-automatically-generated label informationis blank.

The “In-input Slip No.” is a field of slip numbers to identify slipinformation (slips) being input (in input) when label information isautomatically generated. This field of each record aboutnot-automatically-generated label information is blank.

The “Label ID” is a field of label identification information (IDs) toidentify the types of label information. This field of each record aboutnot-automatically-generated label information is blank.

The “Label Input Date/Time” is a field of dates and time at which labelinformation is generated.

The “Associated Label No.” is a field of label numbers of associatedlabel information (associated labels). When no associated label exists,this field is blank.

The storage unit 14 also stores therein the display order of labelbuttons 122 a (see FIG. 7) set through the operation unit 11 or thecommunication unit 15. More specifically, the storage unit 14 storestherein the display order of label buttons 122 a used when the labelbuttons 122 a are not displayed by group and the display order of labelbuttons 122 a of each group used when the label buttons 122 a aredisplayed by group in the below-described display control process.

The storage unit 14 also stores therein a user table where userinformation (user IDs, passwords, user names and the like) on users whocan log in to the business system 101 and the label management system102 and application IDs of their accessible business applications arestored.

The communication unit 15 includes a modem, a router and a network card.The communication unit 15 sends/receives data to/from an external deviceconnected thereto through a communication network.

The clock unit 16 has a built-in clock circuit such as an RTC (Real TimeClock), and measures and outputs the current date and time to the CPU10.

(Action of Data Input Device 1)

Next, action of the data input device 1 is explained.

When the data input device 1 is powered, the CPU 10 displays a log-inscreen on the display unit 12 by working together with the systemprogram (OS). When a user ID and a password are input from thelog-screen through the operation unit 11, the CPU 10 determines on thebasis of the input user ID and password and the information stored inthe user table in the storage unit 14 whether or not the user ispermitted to log in to the business system 101 and the label managementsystem 102.

When determining that the user is permitted to log in, the CPU 10 storesthe user ID of the logged-in user in the RAM 13.

In addition, the CPU 10 loads the business system program 141 and thelabel management system program 142 to the RAM 13 so as to start thebusiness system 101 and the label management system 102, and displays abusiness system region 121 and a label management system region 122shown in FIG. 7 on the display unit 12.

After being started, the business system 101 shown in FIG. 2 displays amenu screen (not shown) in the business system region 121.

On the menu screen, only menus for business applications which thelogged-in user is permitted to access are displayed.

When a menu is selected on the menu screen through the operation unit11, the business system 101 starts a business application correspondingto the selected menu, notifies the label management system 102 about theapplication ID of the started business application and performs thebelow-described automatic label generation monitoring process. When thebusiness application ends, the business system 101 notifies the labelmanagement system 102 that the business application ends.

The business system 101 functions as a determination unit and ageneration/selection unit.

After being started, the label management system 102 displays the labelbutton(s) 122 a, an addition (“Add”) button 122 b and a deletion(“Delete”) button 122 c in the label management system region 122 asshown in FIG. 7.

The label buttons 122 a correspond to respective label information(respective records) stored in the label information DB 142 b. Eachlabel button 122 a is a label showing, for example, a label title, adate and time, a handling person's name and/or the first several wordsof a label content.

The label management system 102 displays the label buttons 122 a on thebasis of the “Label Title”, “Label Input Date/Time”, “User ID” and“Label Content” of their respective records. The label buttons 122 a aredisplayed in the preset display order of the label buttons 122 a storedin the storage unit 14. However, when the business system 101 starts abusiness application and notifies the label management system 102 aboutthe application ID of the started business application, the labelmanagement system 102 performs the below-described display controlprocess and rearranges the display order of the label buttons 122 a.

The addition button 122 b is a button to input a command to generateadditional label information. When the addition button 122 b is pressedthrough the operation unit 11, the label management system 102 displaysa label information input screen (not shown) on the display unit 12 as apop-up or the like, generates label information constituted of items(fields) shown in FIG. 6A or FIG. 6B on the basis of contents input fromthis screen, and stores the generated label information in the labelinformation DB 142 b.

The label based on the generated label information is displayed in thelabel management system region 122.

The deletion button 122 c is a button to input a command to delete arecord of label information corresponding to a selected label button 122a. When a label button 122 a is pressed through the operation unit 11,thereby being in a selected state, and the deletion button 122 c ispressed in this state, the label management system 102 deletes therecord of the label information corresponding to the selected labelbutton 122 a from the label information DB 142 b.

When specifying operation (in the embodiment, double-clicking) isperformed on a label button 122 a through the operation unit 11 whichfunctions as a specifying unit, the label management system 102 displayson the display unit 12 a label detail check screen 1221 (see FIG. 8)which shows the detailed content of the label corresponding to thespecified label button 122 a as a pop-up or the like.

FIG. 8 shows an example of the label detail check screen 1221 displayedwhen a label button 122 a is double-clicked.

As shown in FIG. 8, on the label detail check screen 1221, a slip call(“Call Slip”) button 1221 a, an editing (“Edit”) button 1221 b, aclosure (“Close”) button 1221 c, a label title 1221 d, a label inputdate/time 1221 e, a handling person (name) 1221 f and a label content(entire text) 1221 g are displayed, for example.

The slip call button 1221 a is a commanding unit to make a command todisplay in the business system region 121 slip information in input bythe business system 101 at the time of generation of thedetail-displayed label.

When the slip call button 1221 a is pressed, the label management system102 refers to the record of the detail-displayed label in the labelinformation DB 142 b, and when values are stored in the “In-operationApplication ID” and “In-input Slip No.” of the record, sends thein-operation application ID and the in-input slip number (i.e., thevalues) to the business system 101 so as to request the business system101 to display the slip having that in-input slip number.

When receiving the in-operation application ID and the in-input slipnumber, the business system 101 starts the business application havingthe received in-operation application ID, and reads the slip informationhaving the received in-input slip number from the business system DB 141a and displays the read slip information in the business system region121.

The editing button 1221 b is a button to edit the contents displayed onthe label detail check screen 1221. When the editing button 1221 b ispressed through the operation unit 11, the label management system 102makes it possible to edit the label title 1221 d and the label content1221 g displayed on the label detail check screen 1221 and also displaysan enter button and a return button (both not shown).

When the enter button is pressed through the operation unit 11 after theediting, the label management system 102 updates the contents of thecorresponding record in the label information DB 142 b on the basis ofthe input contents.

The closure button 1221 c is a button to close the label detail checkscreen 1221. When the closure button 1221 c is pressed through theoperation unit 11, the label management system 102 closes the labeldetail check screen 1221.

That is, the label management system 102 functions as a storage controlunit and a display control unit.

Hereinafter, the automatic label generation monitoring process and thedisplay control process are explained. The automatic label generationmonitoring process and the display control process are performed by thebusiness system 101 and the label management system 102, respectively,when a business application is started. First, the automatic labelgeneration monitoring process is explained.

(Automatic Label Generation Monitoring Process)

FIG. 9 is a flowchart of the automatic label generation monitoringprocess. The automatic label generation monitoring process is performedwhen the business system 101 starts any one of the businessapplications.

First, the business system 101 determines whether or not the applicationID of the started business application is registered in the “TargetApplication ID” in the automatic label generation pattern DB 141 b (StepS1).

When determining that the application ID of the started businessapplication is not registered in the “Target Application ID” in theautomatic label generation pattern DB 141 b (Step S1; NO), the businesssystem 101 ends the automatic label generation monitoring process.

On the other hand, when determining that the application ID of thestarted business application is registered in the “Target ApplicationID” in the automatic label generation pattern DB 141 b (Step S1; YES),the business system 101 displays the menu screen to select one of “newinput” and “update” on the display unit 12 (Step S2).

When the “new input” is selected through the operation unit 11 (Step S2;YES), the business system 101 takes a slip number to identify slipinformation (Step S3) and sends the taken slip number to the labelmanagement system 102 (Step S5).

Then, the business system 101 displays a slip input screen in thebusiness system region 121 on the display unit 12 (Step S6) and moves toStep S7.

On the other hand, when the “update” is selected through the operationunit 11 (Step S2; NO), the business system 101 displays an input box toinput a slip number on the display unit 12 so as to accept input of aslip number through the operation unit 11 (Step S4) and sends the inputslip number to the label management system 102 (Step S5)

Then, the business system 101 reads the slip information having theinput slip number from the business system DB 141 a and displays theslip input screen reflecting the read slip information in the businesssystem region 121 on the display unit 12 (Step S6) and moves to Step S7.

FIG. 7 shows, as an example of the slip input screen, a received-orderslip input screen displayed in the business system region 121 when thereceived-order application is started.

As shown in FIG. 7, on each slip input screen, a slip number 121 a, aninput box 121 b for an item which a user needs to input, and an endinput (“Input End”) button 121 c to input a command to inform at the endof the input that the input has finished are displayed.

At Step S7, the business system 101 waits for the end input button 121 cto be pressed (Step S7).

When the end input button 121 c is pressed, (Step S7; YES), the businesssystem 101 updates the business system DB 141 a on the basis of thecontents input from the slip input screen (Step S8).

For example, when data of slip information is input from thereceived-order slip input screen, a record is added to thereceived-order detail table 1411 and the input slip information isstored therein, whereby the business system DB 141 a (received-orderdetail table 1411) is updated. In addition, the amount of received orderthis time is added to the “Amount of Received Order” in the accruedamount by customer table 1416, whereby the business system DB 141 a(accrued amount by customer table 1416) is updated.

Next, the business system 101 refers to the automatic label generationpattern DB 141 b and takes out one record having the application ID ofthe business application in operation (i.e., the started businessapplication or the business application in operation at the time ofinput of the slip information) in the “Target Application ID” (Step S9)and determines whether or not all the variables contained in theautomatic label generation condition of the record are available (StepS10).

For example, in the case where the received-order application havingH110010002 as the application ID is in operation, and a record taken outfrom the automatic label generation pattern DB 141 b is the secondrecord in FIG. 4, the business system 101 searches (i) the “Number ofOrder-received Articles” of the latest record in the received-orderdetail table 1411, the “Number of Order-received Articles” of the recordcorresponding to the variable of {Number of Order-received Articles ThisTime} of the second record in FIG. 4, and (ii) the “Number of Stocks” ofthe record in the stock management table 1414 having the same productcode (in the “Product Code”) as the latest record in the received-orderdetail table 1411, the “Number of Stocks” of the record corresponding tothe variable of {Number of Stocks} of the second record in FIG. 4, anddetermines whether or not data are stored in both of them.

When data are stored in both of them, the business system 101 determinesthat all the variables contained in the automatic label generationcondition of the record are available.

Further, for example, in the case where the received-order applicationhaving H110010002 as the application ID is in operation, and a recordtaken out from the automatic label generation pattern DB 141 b is thethird record in FIG. 4, the business system 101 searches (i) the “Numberof Order-received Articles” of the latest record in the received-orderdetail table 1411, the “Number of Order-received Articles” of the recordcorresponding to the variable of {Number of Order-received Articles ThisTime} of the third record in FIG. 4, (ii) the “Amount of ReceivedOrder”, “Amount of Sales” and “Billed Amount” of the record in theaccrued amount by customer table 1416 having the same customer code (inthe “Customer Code”) as the latest record in the received-order detailtable 1411, the data stored therein being required to calculate thevariable of {Accrued Amount} of the third record in FIG. 4, and (iii)the “Credit Limit” of the record in the customer master table 1415having the same customer code (in the “Customer Code”) as the latestrecord in the received-order detail table 1411, the “Credit Limit” ofthe record corresponding to the variable of {Credit Limit} the thirdrecord in FIG. 4, and determines whether or not data are stored in allof them.

When data are stored in all of them, the business system 101 determinesthat all the variables contained in the automatic label generationcondition of the record are available.

The variable of {Accrued Amount} of a customer becomes available bycalculating the sum of the values stored in the “Amount of ReceivedOrder”, “Amount of Sales” and “Billed Amount”.

When determining that all the variables contained in the automatic labelgeneration condition of the record are available (Step S10; YES), thebusiness system 101 determines whether or not the automatic labelgeneration condition is satisfied (Step S11). That is, the businesssystem 101 obtains or calculates each variable contained in theautomatic label generation condition from the business system DB 141 aor on the basis of the data obtained from the business system DB 141 a,and determines whether or not the automatic label generation conditionis satisfied.

When determining that the automatic label generation condition issatisfied (Step S11; YES), the business system 101 generates and sendslabel information to the label management system 102 (Step S12) andmoves to Step S13.

The label information is data of the “Label ID”, “Label Title” and“Label Content” of a record taken out from the automatic labelgeneration pattern DB 141 b, and when a variable(s) are contained in thelabel title and/or the label content, the label information is data ofthe “Label ID”, “Label Title” and “Label Content” of a record with avalue(s) assigned to the variable(s). If no value can be assigned to avariable, a null character is assigned thereto.

For example, in the case where the received-order application havingH110010002 as the application ID is in operation, and a record taken outfrom the automatic label generation pattern DB 141 b is the secondrecord in FIG. 4, the business system 101 sends to the label managementsystem 102 (i) data of the “Label ID” and “Label Title” of the recordand (ii) data of the “Label Content” of the record with a value assignedto the variable of {Product Name} therein, the value being stored in the“Product Name” of the record in the product master table 1413 having thesame product code (in the “Product Code”) as the latest record in thereceived-order detail table 1411.

At Step S12 above, the label information is generated, but not limitedthereto. The label information fit for the satisfied automatic labelgeneration condition may be selected from a variety of label informationstored in a storage unit, and sent to the label management system 102.

For example, each label information to be selected when an automaticlabel generation condition is satisfied may be correlated and storedwith a target application ID, a label ID and the automatic labelgeneration condition in the automatic label generation pattern DB 141 b,so that when an automatic label generation condition is satisfied, thelabel information correlated with the satisfied automatic labelgeneration condition can be selected from the variety of labelinformation stored in the automatic label generation pattern DB 141 band sent (together with the label ID) to the label management system102.

On the other hand, when determining that not all the variables containedin the automatic label generation condition of the record are available(Step S10; NO), or when determining that the automatic label generationcondition is not satisfied (Step S11; NO), the business system 101 movesto Step S13.

The business system 101 determines whether or not the automatic labelgeneration conditions of all the records in the automatic labelgeneration pattern DB 141 b having the application ID of the businessapplication in operation in the “Target Application ID” have beenevaluated about being satisfied or not (Step S13). When determining thatthe automatic label generation conditions of all the records have notbeen evaluated yet (Step S13; NO), the business system 101 returns toStep S9 so as to evaluate the automatic label generation condition ofthe next record. On the other hand, when determining that the automaticlabel generation conditions of all the records have been evaluated (StepS13; YES), the business system 101 moves to Step S14.

The business system 101 determines whether or not a command to end thebusiness application is made through the operation unit 11 (Step S14).When determining that the command to end the business application is notmade (Step S14; NO), the business system 101 returns to Step S2. On theother hand, when determining that the command to end the businessapplication is made (Step S14; YES), the business system 101 ends theautomatic label generation monitoring process.

When the label management system 102 receives the label information fromthe business system 101, the label management system 102 adds a recordto the label information DB 142 b and stores data in each item (field)of the added record on the basis of the label information received fromthe business system 101.

More specifically, the label management system 102 takes a sequentiallabel number and stores the label number in the “Label No.” and storesthe user ID of the logged-in user in the “User ID”.

The label management system 102 also stores the label title, the labelcontent and the label ID of the label information received from thebusiness system 101 in the “Label Title”, “Label Content” and “LabelID”, respectively.

The label management system 102 also stores the application ID of thebusiness application in operation notified by the business system 101and the slip number of the slip in input received from the businesssystem 101 in the “In-operation Application ID” and “In-input Slip No.”,respectively.

The label management system 102 also stores the current date and time inthe “Label Input Date/Time” by obtaining the current date and time fromthe clock unit 16.

(Display Control Process)

Next, the display control process performed by the label managementsystem 102 is explained.

FIG. 10 is a flowchart of the display control process. The displaycontrol process is performed when the label management system 102 isnotified about the application ID of the business application havingbeen started, thereby being in operation, by the business system 101.

First, the label management system 102 refers to the label informationDB 142 b and determines whether or not a record(s) having theapplication ID of the started business application (i.e., the businessapplication in operation) in the “In-operation Application ID” andhaving the user ID of the logged-in user in the “User ID” exists in thelabel information DB 142 b (Step S21).

When determining that no record(s) having the application ID of thestarted business application (i.e., the business application inoperation) in the “In-operation Application ID” and having the user IDof the logged-in user in the “User ID” exists in the label informationDB 142 b (Step S21; NO), the label management system 102 moves to StepS25.

On the other hand, when determining that a record(s) having theapplication ID of the started business application (i.e., the businessapplication in operation) in the “In-operation Application ID” andhaving the user ID of the logged-in user in the “User ID” exists in thelabel information DB 142 b (Step S21; YES), the label management system102 determines whether or not the slip number of a slip as the currentinput target (i.e., the in-input slip number) is received from thebusiness system 101 (Step S22).

When determining that the slip number of a slip as the current inputtarget is received from the business system 101 (Step S22; YES), thelabel management system 102 retrieves, of the labels (records) stored inthe label information DB 142 b, a record(s) having the user ID of thelogged-in user in the “User ID”, having the application ID of thebusiness application in operation in the “In-operation Application ID”and having the slip number of a slip as the current input target in the“In-input Slip No.” and displays a label button(s) 122 a based on thelabel information of the respective retrieved record(s) in the labelmanagement system region 122 on the display unit 12 as the first group(Step S23) and moves to Step S25.

That is, the label(s) generated or selected while the logged-in user isor was handling a slip which is the current input target are displayedwith top priority.

In the display control process, the label buttons 122 a based on therespective label information stored in the label information DB 142 bare displayed by being classified as the first group, the second groupand the third group. The priority order of the groups in displaying is“first group>second group>third group”. The higher the priority of thegroup is, the higher (closer to the top) in the label management systemregion 122 the group is displayed.

When any of the groups has a plurality of labels (label buttons 122 a),the labels of the group are displayed in the preset display order forthe group stored in the storage unit 14.

When determining that the slip number of a slip as the current inputtarget is not received from the business system 101 (Step S22; NO), thelabel management system 102 retrieves, of the labels (records) stored inthe label information DB 142 b, a record(s) having the user ID of thelogged-in user in the “User ID” and having the application ID of thebusiness application in operation in the “In-operation Application ID”and displays a label button(s) 122 a based on the label information ofthe respective retrieved record(s) in the label management system region122 on the display unit 12 as the first group (Step S24) and moves toStep S25.

That is, the labels generated or selected while the started businessapplication is or was in operation and the logged-in user logs in orlogged in are displayed with top priority.

At Step S25, the label management system 102 retrieves, from theassociated application DB 142 a, a record(s) having the application IDof the business application in operation in the “Associated ApplicationID” (Step S25).

Next, the label management system 102 searches the label information DB142 b and determines whether or not a record(s) having the label ID ofthe record retrieved at Step S25 exists therein (Step S26).

When determining that no record(s) having the label ID of the recordretrieved at Step S25 exists in the label information DB 142 b (StepS26; NO), the label management system 102 moves to Step S28.

On the other hand, when determining that a record(s) having the label IDof the record retrieved at Step S25 exists in the label information DB142 b (Step S26; YES), the label management system 102 retrieves therecord(s) having the label ID of the record retrieved at Step S25 fromthe label information DB 142 b and displays a label button(s) 122 abased on the label information of the respective retrieved record(s) inthe label management system region 122 on the display unit 12 as thesecond group (Step S27) and moves to Step S28.

However, in the case where no label button 122 a is displayed as thefirst group, the label button(s) 122 a based on the label information ofthe respective record(s) retrieved at Step S27 are displayed as thefirst group. The label button(s) 122 a already displayed as the firstgroup are not displayed as the second group to avoid duplication.

Each label (label button 122 a) displayed at Step S27 is a labelassociated with the business application in operation.

For example, the label content of the record having 00001 as the labelID in FIG. 4 is “{Product Name} is running short. Please place order.”.This label is useful if displayed while a person in charge of orderplacement is inputting a placed-order slip through the placed-orderapplication. Then, the person in charge of order placement can recognizethe stock shortage, and hence the stock shortage can be solved.

In the embodiment, in the associated application DB 142 a, each label IDis correlated and stored with the application ID of a businessapplication which is associated with a label having the type indicatedby the label ID. At Step S27, a label(s) associated with the businessapplication in operation are displayed on the basis of the informationin the associated application DB 142 a.

At Step S28, the label management system 102 displays a label button(s)122 a based on the label information of a record(s), among the recordsin the label information DB 142 b, not displayed as either the firstgroup or the second group, as the third group (Step S28).

Next, the label management system 102 determines whether or not thebusiness application is ended (Step S29). More specifically, the labelmanagement system 102 determines whether or not the business applicationis ended on the basis of whether or not the end of the businessapplication is notified by the business system 101. When determiningthat the business application is not ended (Step S29; NO), the labelmanagement system 102 returns to Step S22.

On the other hand, when determining that the business application isended (Step S29; YES), the label management system 102 changes thedisplay order of the label buttons 122 a to the preset display order,which is preset by the user and stored in the storage unit 14, so as todisplay all the label buttons 122 a in the display order preset by theuser (Step S30) and then ends the display control process.

FIG. 11 shows an example of the label detail check screen 1221 displayedby the label management system 102 when a label button 122 a displayedat Step 27 is specified (double-clicked).

As shown in FIG. 11, on the label detail check screen 1221 displayed atStep S27, an association input (“Input Association”) button 1221 h isdisplayed, instead of the editing button 1221 b displayed on the labeldetail check screen 1221 shown in FIG. 8.

When the association input button 1221 h is pressed through theoperation unit 11, the label management system 102 starts and displays areply input screen (not shown) to input comments to reply to the label(called the “main label”) displayed on the label detail check screen1221.

When comments are input from the reply input screen through theoperation unit 11 which functions as an input unit, the label managementsystem 102 stores the comments input from the reply input screen in thelabel information DB 142 b as label information of a label associatedwith the main label as shown in FIG. 6B. This label of the comments toreply to the main label is called the “associated label”.

More specifically, the label management system 102 adds a record to thelabel information DB 142 b, takes a sequential label number and storesthe label number in the “Label No.” and also stores in the “User ID” theuser ID of the logged-in user at the time of press of the associationinput button 1221 h.

The label management system 102 also stores the label title and thelabel content input from the reply input screen in the “Label Title” and“Label Content”, respectively.

The label management system 102 also stores the application ID of thebusiness application in operation and the slip number of the slip ininput at the time of press of the association input button 1221 h in the“In-operation Application ID” and “In-input Slip No.”, respectively.

The label management system 102 also stores the current date and time inthe “Label Input Date/Time” by obtaining the current date and time fromthe clock unit 16. The “Label ID” is left blank. The label managementsystem 102 also stores, in order to show the association of the mainlabel with the associated label, the label number of the main labelbeing looked at at the time of press of the association input button1221 h in the “Associated Label No.”. The label management system 102stores the label number of the associated label in the “Associated LabelNo.” of the record of the main label.

When label detail display of a main label having a label number in the“Associated Label No.” in the label information DB 142 b is commanded,the label management system 102 displays the label detail check screen1222 as shown in FIG. 12A.

On the label detail check screen 1222, the main label and the associatedlabel are displayed to be switchable according to user operation.

That is, the label management system 102 first displays the label titleand the detailed content of the main label on the label detail checkscreen 1222, and then displays the label title and the detailed contentof the associated label on the label detail check screen 1222 inresponse to tab switching.

When label detail display of an associated label having a label numberin the “Associated Label No.” in the label information DB 142 b iscommanded, as shown in FIG. 12B, the label management system 102 firstdisplays the label title and the detailed content of the associatedlabel on the label detail check screen 1222, and then displays the labeltitle and the detailed content of the main label on the label detailcheck screen 1222 in response to tab switching.

In the case of the label detail display of an associated label too, asshown in FIG. 12A and FIG. 12B, the label detail check screen 1222 isprovided with the slip call button 1222 a. Hence, the slip in input atthe time of generation of the associated label can be displayed.

That is, when the slip call button 1222 a is pressed on the label detailcheck screen 1222 on which details of an associated label are displayed,the label management system 102 refers to, in the label information DB142 b, the record of the associated label, the details of which aredisplayed on the label detail check screen 1222, and when values arestored in the “In-operation Application ID” and “In-input Slip No.”,sends the in-operation application ID and the in-input slip number(i.e., the values) to the business system 101 so as to request thebusiness system 101 to display the slip having that in-input slipnumber.

When receiving the in-operation application ID and the in-input slipnumber, the business system 101 starts the business application havingthe in-operation application ID, reads the slip information having thein-input slip number from the business system DB 141 a and displays theread slip information in the business system region 121.

As described above, according to the data input device 1, the businesssystem 101 determines whether or not a predetermined automatic labelgeneration condition is satisfied on the basis of (i) data of input slipinformation and (ii) predetermined data that has a type relevant to thedata of the input slip information and is stored in the business systemDB 141 a.

When determining that the automatic label generation condition issatisfied, the business system 101 stores the data of the input slipinformation in the business system DB 141 a, and also generates orselects label information having a predetermined content fit for theautomatic label generation condition and sends the label information tothe label management system 102. The label management system 102correlates and stores the received label information with the slipnumber of the input slip information in the label information DB 142 b.

Therefore, even when an operator does not notice that an event to beconveyed with an electronic label occurs, an electronic label can begenerated or selected.

For example, in the automatic label generation pattern DB 141 b, theautomatic label generation condition is correlated and stored with thelabel information generated or selected when the automatic labelgeneration condition is satisfied, and the business system 101determines whether or not the automatic label generation conditionstored in the automatic label generation pattern DB 141 b is satisfiedon the basis of the data of the input slip information and thepredetermined data, and when determining that the automatic labelgeneration condition is satisfied, generates or selects the labelinformation having the content correlated and stored with the automaticlabel generation condition.

Therefore, determining whether or not an automatic label generationcondition is satisfied and generating or selecting label information canbe performed at high speed by using the automatic label generationpattern DB 141 b.

Further, in the automatic label generation pattern DB 141 b, theautomatic label generation condition is correlated and stored with (i)the label information generated or selected when the automatic labelgeneration condition is satisfied, (ii) the label identificationinformation to identify the type of the label information and (iii) theapplication ID of a business application as a target in which the labelinformation is generated, and when the application ID of a businessapplication in operation at the time of input of the data of the slipinformation is stored in the automatic label generation pattern DB 141b, the business system 101 determines whether or not the automatic labelgeneration condition correlated and stored with the application ID ofthe business application in operation is satisfied on the basis of thedata of the input slip information and the predetermined data.

Therefore, label information can be generated or selected when abusiness application as the automatic label generation target is inoperation.

Further, the label management system 102 correlates and stores in thelabel information DB 142 b the label information generated or selectedat the time of input of the data of the slip information with (i) theslip number of the slip information and (ii) the application ID of thebusiness application in operation at the time of input of the slipinformation.

Therefore, label information can be correlated with slip information ininput and a business application in operation at the time of generationor selection of the label information.

Further, in the associated application DB 142 a, the labelidentification information is correlated and stored with the applicationID of a business application associated with the content of the labelinformation identified with the label identification information, andwhen a business application is started, the label management system 102refers to the label information DB 142 b and preferentially displays onthe display unit 12 (i) a label based on the label informationcorrelated with the application ID of the started business applicationor (ii) a label based on the label information having the labelidentification information correlated and stored with the application IDof the started business application in the associated application DB 142a.

Therefore, labels correlated with a business application in operation orlabels associated with the business application in operation can bepreferentially displayed to attract a user's attention.

Further, the label management system 102 displays on the display unit 12the detailed content of a label specified through the operation unit 11among the label(s) displayed on the display unit 12. Therefore, a usercan easily check the detailed content of a label.

Further, comments on a main label are input as the label information ofan associated label, the main label being the displayed label based onthe label information having the label identification informationcorrelated and stored with the application ID of the started businessapplication in the associated application DB 142 a. Therefore, a usercan input a reply to the main label.

Further, the label management system 102 displays the main label and theassociated label to be switchable according to user operation.Therefore, a user can check both the main label and the associated labelwith simple operation.

Further, when the slip call button 1221 a on the label detail checkscreen 1221 is pressed, the label management system 102 makes thebusiness system 101 read the slip information relevant to the displayedlabel information from the business system DB 141 a and display the readslip information on the display unit 12. Therefore, a user can easilycheck the slip information in input at the time of generation orselection of the label.

The above embodiment is a preferred example of the data input device 1of the present invention, and hence the present invention is not limitedthereto.

For example, in the above embodiment, the data input device 1 inputsdata of slip information. However, the present invention is not limitedthereto and is applicable to data input devices which input other data.

Further, in the above embodiment, the business system DB 141 a, theautomatic label generation pattern DB 141 b, the associated applicationDB 142 a and the label information DB 142 b are stored in the storageunit 14 which is in the data input device 1, but may be stored in anexternal database server or the like.

Further, in the above embodiment, in the display control process, thelabels generated or selected while the started business application isor was in operation and the logged-in user is or was using the device(the labels based on the label information satisfying the conditions ateach of Steps S23 and S24 in FIG. 10) are preferentially displayed.Alternatively, no matter who currently logs in, the labels generated orselected while the started business application is or was in operation,namely, the labels correlated and stored with the application ID of thestarted business application in the label information DB 142 b, may bepreferentially displayed.

Further, the labels associated with the started business application(the labels based on the label information satisfying the condition atStep S27 in FIG. 10) may be preferentially displayed.

The detailed configuration and action of the data input device 1 canalso be appropriately modified without departing from the spirit of thepresent invention.

In the above, an embodiment of the present invention is explained.However, the scope of the present invention is not limited to the aboveembodiment but includes the scope of claims below and the scope of theirequivalences.

1. An information processing device comprising: a control unit which,when a predetermined automatic label generation condition is satisfiedby data being input, generates or selects electronic label informationhaving a preset content correlated with an application identificationinformation of an application in operation at time of the input of thedata and the automatic label generation condition, wherein the controlunit is configured so that, when the control unit generates or selectsthe electronic label information, the control unit correlates and storesthe generated or selected electronic label information with the inputdata as associated information and the application identificationinformation in a predetermined memory.
 2. The information processingdevice according to claim 1, wherein when the electronic labelinformation is already correlated and stored with the applicationidentification information in the memory at time of start of theapplication, the control unit is configured to preferentially displaythe electronic label information on a display.
 3. The informationprocessing device according to claim 1, wherein when the electroniclabel information is already correlated and stored with the applicationidentification information in the memory at time of start of theapplication, the control unit is configured to displays the electroniclabel information as main information and the input data as theassociated information on a display.
 4. The information processingdevice according to claim 1, wherein when the electronic labelinformation is already correlated and stored with the applicationidentification information in the memory at time of start of theapplication, the control unit is configured to display the electroniclabel information and the input data on a display to be switchable inresponse to tab switching.
 5. An information processing devicecomprising: a determination unit which determines whether apredetermined automatic label generation condition is satisfied eachtime date is input; a generation/selection unit which, when thedetermination unit determines that the automatic label generationcondition is satisfied, generates or selects electronic labelinformation having a preset content correlated with an applicationidentification information of an application having been started toinput the data and the automatic label generation condition; and astorage control unit which is configured so that, when thegeneration/selection unit generates or selects the electronic labelinformation, the storage control unit correlates and stores thegenerated or selected electronic label information with the input dataas associated information and the application identification informationin a predetermined memory.
 6. The information processing deviceaccording to claim 5, further comprising a display control unit which,when the electronic label information is already correlated and storedwith the application identification information in the memory at time ofstart of the application, is configured to preferentially display theelectronic label information on a display.
 7. The information processingdevice according to claim 5, further comprising a display control unitwhich, when the electronic label information is already correlated andstored with the application identification information in the memory attime of start of the application, is configured to display theelectronic label information as main information and the input data asthe associated information on a display.
 8. The information processingdevice according to claim 5, further comprising a display control unitwhich, when the electronic label information is already correlated andstored with the application identification information in the memory attime of start of the application, is configured to display theelectronic label information and the input data on a display to beswitchable in response to tab switching.